Automatic document feeder

ABSTRACT

An automatic document feeder including a sloping paper feeding tray, a bearing board and a Mylar is provided. The sloping paper feeding tray is used for accommodating a paper sheet. The bearing board, with its one end being pivotally connected to the sloping paper feeding tray, turns around on the sloping paper feeding tray, while the other end of the bearing board supports the paper sheet. The Mylar, which is disposed between the sloping paper feeding tray and the supporting plate, elastically supports the other end of the bearing board so that an included angle is created between the bearing board and the sloping paper feeding tray. The Mylar includes a junction portion and a supporting portion with the junction portion being flatly adhered onto the sloping paper feeding tray. The supporting portion, which creates another included angle with the sloping paper feeding tray, elastically supports the bearing board.

This application claims the benefit of Taiwan application Serial No. 92132644, filed Nov. 20, 2003, the subject matter of which is incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates in general to an automatic document feeder (ADF), and more particularly to an automatic document feeder which disposes a bearing board on an elastic structure of a sloping paper feeding tray.

2. Description of the Related Art

Referring to FIG. 1A, a cross-sectional view of the structure of a conventional automatic document feeder (ADF) is shown. In FIG. 1A, an automatic document feeder 100, which includes a horizontal paper feeding tray 104, an automatic paper feeding roller set 106, a paper supporting plate 108 and a spring 111, for feeding a to-be-fed paper sheet 102 into an office machine (not shown in FIG. 1A) such as a printer, a copier, a scanner or a facsimile machine is shown. The horizontal paper feeding tray 104 is for accommodating the to-be-fed paper sheet 102. A feeding end 112 is formed by a flange of the automatic paper feeding roller set 106 and a paper feeding pad 110, wherein the flange of the automatic paper feeding roller set 106 and the paper feeding pad 110 are adjacent to and in contact with each other. The automatic paper feeding roller set 106 rotates clockwise around the roller shaft 116 and carries the to-be-fed paper sheet 102 to move forward. The paper supporting plate 108, with its one end being pivotally connected to the horizontal paper feeding tray 104, is able to turn around on the horizontal paper feeding tray 104. One end of the spring 111 is fixed at a slot 113 of the horizontal paper feeding tray 104 while the other end of the spring 111 is fixed onto the bottom of the other end of the paper supporting plate 108, forming an included angle θ1 between the paper supporting plate 108 and the horizontal paper feeding tray 104.

Referring to FIG. 1B, a cross-sectional view of the structure of the automatic document feeder of FIG. 1A with a paper stack 114 being loaded therein is shown. In FIG. 1B, the paper stack 114 is placed on the horizontal paper feeding tray 104, wherein the paper stack 114 includes a paper sheet 102 a, a paper sheet 102 b, a paper stack 114 a and a paper sheet 102 c according to a top-down arrangement. Since the gravity of the paper stack 114 is much larger than that of the single to-be-fed paper sheet 102 in FIG. 1A, the included angle between the paper supporting plate 108 and the horizontal paper feeding tray 104 in FIG. 1B is smaller than the included angle θ1 in FIG. 1A. Furthermore, since the paper stack 114 weighs heavier, the spring 111 must have a larger elasticity so that the front end of the paper stack 114 may be raised up to the paper feeding pad 110 with the front end of the paper sheet 102 a just reaching the feeding end 112.

After the automatic paper feeding roller set 106 has fed the paper sheets 102 a and 102 b and the paper stack 114 a into the office machine in succession, only the paper sheet 102 c will be left in the horizontal paper feeding tray 104 like the case in FIG. 1A. By means of the upward elasticity of the spring 111, the included angle between the paper supporting plate 108 and the horizontal paper feeding tray 104 is expanded to be θ1, so that the paper sheet 102 c is raised up with the front end of the paper sheet 102 c reaching the feeding end 112. Consequently, the automatic paper feeding roller set 106 may carry the paper sheet 102 c towards the feeding end 112. The step of automatic document feeding of the automatic document feeder 100 is completed here.

Since the structure of the horizontal paper feeding tray 104 adopts a horizontal design, the spring 111 must provide an upward elasticity to support the weight of the paper sheets and to enable the paper supporting plate 108 to raise the paper sheets up so that the front ends of the paper sheets may reach the feeding end 112. When the number of paper sheets placed on the paper supporting plate 108 becomes larger, the elasticity of the spring 111 needs to be enhanced accordingly to assure that the topmost paper sheet may reach the feeding end 112. Since the assembly mechanism of the horizontal paper feeding tray 104, the spring 111 and the paper supporting plate 108 is very complicated, the assembly is costly and is difficult to be done during the manufacturing process.

Referring to FIG. 2A, a cross-sectional view of the structure of an automatic document feeder 200 disclosed in Taiwanese patent publication number 509143 is shown. In FIG. 2A, an automatic document feeder 200, which includes a sloping paper feeding tray 204, a automatic paper feeding roller set 206 and a Mylar 208, is for feeding a to-be-fed paper sheet 202 into an office machine (not shown in FIG. 2A) such as a printer, a copier, a scanner or a facsimile machine is shown. The sloping paper feeding tray 204 is for accommodating the to-be-fed paper sheet 202. Both the automatic paper feeding roller set 206 and the paper feeding pad 210 are disposed at the bottom of the sloping paper feeding tray 204. A feeding end 212 is formed by a flange of the automatic paper feeding roller set 206 and the paper feeding pad 210, wherein the flange of the automatic paper feeding roller set 206 and the paper feeding pad 210 are adjacent to and in contact with each other. Moreover, the automatic paper feeding roller set 206 rotates clockwise around a roller shaft 216 and carries the to-be-fed paper sheet 202 to move forward. The Mylar 208 further includes a junction portion 208 a and a supporting portion 208 b, wherein the junction portion 208 a is flatly adhered onto the sloping paper feeding tray 204 while an included angle β1 is formed between the supporting portion 208 b and the sloping paper feeding tray 204. As more paper sheets are placed on the Mylar 208, the included angle between the supporting portion 208 b and the sloping paper feeding tray 204 becomes smaller. By means of the structural elasticity, the Mylar 208 is able to support the to-be-fed paper sheet 202. Availed by the sloping design of the structure of the sloping paper feeding tray 204, the front end of the to-be-fed paper sheet 202 may slide to reach the feeding end 212 due to gravity, so that the automatic paper feeding roller set 206 may carry the to-be-fed paper sheet 202 to move towards the feeding end 212.

Referring to FIG. 2B, a cross-sectional view of the structure of an automatic document feeder 200 in FIG. 2A with a paper stack 214 being loaded therein is shown. In FIG. 2B, the paper stack 214 including two paper sheets 202 a and 202 b, a paper stack 214 a and a paper sheet 202 c arranged in a top-down order is loaded in a sloping paper feeding tray 204. Since the downward gravity of the paper stack 214 is larger than the gravity of the single to-be-fed paper sheet 202 in FIG. 2A and the upward elasticity of the Mylar 208 as well, the included angle between the supporting plate 208 b and the sloping paper feeding tray 204 is smaller than β1. Furthermore, the bottom of the supporting portion 208 b of the Mylar 208 may come into contact with the sloping paper feeding tray 204. Meanwhile, the front end of the paper stack 214 comes into contact with the paper feeding pad 210 with the front end of the paper sheet 202 a just reaching the feeding end 212.

After the paper sheets 202 a and 202 b and the paper stack 214 a are sequentially carried by the paper feeding roller set 206 and fed into the office machine, only the paper sheet 202 c will be left on the sloping paper feeding tray 204 like the case in FIG. 2A. Owing to the upward elasticity of the Mylar 208, the included angle between the supporting portion 208 b and the sloping paper feeding tray 204 is expanded and becomes β1 so that the paper sheet 202 c is raised upward with the front end of the paper sheet 202 c reaching the feeding end 212. Consequently, the automatic paper feeding roller set 206 may carry the paper sheet 202 c to move towards the feeding end 212. The step of automatic document feeding of the automatic document feeder 200 is completed here.

However, the Mylar 208, which has a fragile structure and is directly exposed on the sloping paper feeding tray 204, will be easily worn out in the long run and is likely to be damaged by a careless operator. Once the Mylar 208 is damaged, the automatic document feeder 200 cannot function properly and needs to be repaired, boosting the repair and maintenance cost even higher.

SUMMARY OF THE INVENTION

It is therefore an object of the invention to provide an automatic document feeder whose design of disposing a bearing board on a sloping paper feeding tray not only protects the Mylar disposed under the supporting plate from being damaged but also reduces the damage rate of the Mylar, so that the lifespan of the Mylar may be lengthened and a stable operation of the automatic document feeder may be achieved

It is therefore another object of the invention to provide an automatic document feeder including a sloping paper feeding tray, a bearing board and an elastic structure. The sloping paper feeding tray is for accommodating a to-be-fed paper sheet. The bearing board, with its one end being pivotally connected to the sloping paper feeding tray, is able to turn around on the sloping paper feeding tray, while the other end of the bearing board supports the to-be-fed paper sheet. The elastic structure, which is disposed between the sloping paper feeding tray and the bearing board, elastically supports the other end of the bearing board to create an included angle between the supporting plate and the sloping paper feeding tray. The elastic structure may be a Mylar or a spring for instance.

It is therefore another object of the invention to provide an automatic document feeder including a sloping paper feeding tray, a bearing board and a Mylar. The sloping paper feeding tray is for accommodating a to-be-fed paper sheet. The bearing board, with its one end being pivotally connected to the sloping paper feeding tray, is able to turn around on the sloping paper feeding tray, while the other end of the bearing board supports the to-be-fed paper sheet. The Mylar, which is disposed between the sloping paper feeding tray and the supporting plate, may elastically spring the other end of the bearing board so that an included angle is created between the bearing board and the sloping paper feeding tray. The Mylar includes a junction portion and a supporting portion with the junction portion being flatly adhered onto the sloping paper feeding tray. The supporting portion, which creates another included angle with the sloping paper feeding tray, elastically supports the bearing board.

Other objects, features, and advantages of the invention will become apparent from the following detailed description of the preferred but non-limiting embodiments. The following description is made with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A shows a cross-sectional view of the structure of a conventional automatic document feeder;

FIG. 1B shows a cross-sectional view of the structure of the automatic document feeder of FIG. 1A with a paper stack being loaded therein;

FIG. 2A shows a cross-sectional view of the structure of an automatic document feeder 200 disclosed in Taiwanese patent publication number 509143;

FIG. 2B shows a cross-sectional view of the structure of an automatic document feeder 200 in FIG. 2A with a paper stack 214 being loaded therein;

FIG. 3A shows a cross-sectional view of the structure of an automatic document feeder according to preferred embodiment one of the invention;

FIG. 3B shows a cross-sectional view of the structure of the automatic document feeder of FIG. 3A with a paper stack being loaded therein;

FIG. 4A shows a cross-sectional view of the structure of an automatic document feeder according to preferred embodiment two of the invention; and

FIG. 4B shows a cross-sectional view of the structure of the automatic document feeder of FIG. 4A with a paper stack being loaded therein.

DETAILED DESCRIPTION OF THE INVENTION PREFERRED EMBODIMENT ONE

Referring to FIG. 3A, a cross-sectional view of the structure of an automatic document feeder 300 according to preferred embodiment one of the invention is shown. In FIG. 3A, the automatic document feeder 300 includes a sloping paper feeding tray 304, an automatic paper feeding roller set 306, a paper feeding pad 310, a bearing board 307 and an elastic structure, wherein the elastic structure may be a spring or a Mylar 308. The automatic document feeder 300 is for feeding a to-be-fed paper sheet 302 into an office machine (not shown in FIG. 3A) such as a printer, a copier, a scanner or a facsimile machine. The sloping paper feeding tray 304 is for accommodating the to-be-fed paper sheet 302. Both the automatic paper feeding roller set 306 and the paper feeding pad 310 are disposed at the bottom of the sloping paper feeding tray 304. A feeding end 312 is formed by a flange of the automatic paper feeding roller set 306 and the paper feeding pad 310, wherein the flange of the automatic paper feeding roller set 306 and the paper feeding pad 310 are adjacent to and in contact with each other. Moreover, the automatic paper feeding roller set 306 rotates clockwise around a roller shaft 316 and carries the to-be-fed paper sheet 302 to move forward.

The bearing board 307, with its one end being pivotally connected to the sloping paper feeding tray 304, is able to turn around on the sloping paper feeding tray, while the other end of the bearing board 307 supports the to-be-fed paper sheet 302. The Mylar 308, which is disposed between the sloping paper feeding tray 304 and the bearing board 307, may elastically spring the other end of the bearing board 307 so that an included angle ω1 is created between the bearing board and the sloping paper feeding tray.

The Mylar 308 includes a junction portion 308 a and a supporting portion 308 b with the junction portion 308 a being flatly adhered onto the sloping paper feeding tray 304. The supporting portion 308 b, which creates another included angle with the sloping paper feeding tray 304, elastically supports the bearing board 307. As more and more paper sheets are placed on the bearing board 307, the included angle between the bearing board 307 and the sloping paper feeding tray 304 becomes smaller and so does the included angle between the supporting portion 308 b and the sloping paper feeding tray 304. The bearing board 307 uses the elasticity of the Mylar 308 to support the to-be-fed paper sheet 302 with the front end of the to-be-fed paper 302 reaching the feeding end 312, so that the automatic paper feeding roller set 306 may carry the to-be-fed paper sheet 302 to move towards the feeding end 312.

Referring to FIG. 3B, a cross-sectional view of the structure of the automatic document feeder of FIG. 3A with a paper stack being loaded therein is shown. In FIG. 3B, the paper stack 314 including a paper sheet 302 a, a paper sheet 302 b, a paper stack 314 a and a paper sheet 302 c arranged in a top-down order is loaded in a sloping paper feeding tray 304. Since the downward gravity of the paper stack 314 is larger than the gravity of the single to-be-fed paper sheet 302 in FIG. 3A and the upward elasticity of the Mylar 308 as well, the included angle between the bearing board 307 and the sloping paper feeding tray 304 is smaller than ω1. Furthermore, the bottom of the supporting portion 308 b of the Mylar 308 may even come into contact with the sloping paper feeding tray 304. Meanwhile, the front end of the paper stack 314 comes into contact with the paper feeding pad 310 and the front end of the paper sheet 302 a just reaches the feeding end 312.

When the automatic paper feeding roller set 306 starts to rotate around a roller shaft 316, the automatic paper feeding roller set 306 will carry the paper sheet 302 a to move towards the feeding end 312 because the front end of the paper sheet 302 a has reached the feeding end 312 already. After the paper sheet 302 a has completely passed through the feeding end 312 and is carried forward by the automatic paper feeding roller set 306, the upward elasticity of the Mylar 308 will bring the front end of the paper sheet 302 b to reach the feeding end 312 to be carried forward by the automatic paper feeding roller set 306 like the case mentioned above. When fewer and fewer paper sheets are left at the paper stack 314, the downward gravity of the paper stack 314 becomes smaller and smaller accordingly. Owing to the upward elasticity of the Mylar 308, the included angle between the bearing board 307 and the sloping paper feeding tray 304 will become larger and larger to support the weight of the remaining paper sheets of the paper stack 314. Consequently, the front end of the remaining paper sheets of the paper stack 314 will reach the feeding end 312 sequentially, so that the automatic paper feeding roller set 306 may sequentially carry the paper sheets of the paper stack 314 to move forward.

After the paper sheets 302 a and 302 b and the paper stack 314 a are sequentially carried by the paper feeding roller set 306 and fed into the office machine, only the paper sheet 302 c will be left at the sloping paper feeding tray 204 like the case in FIG. 3A. Owing to the upward elasticity of the Mylar 308, the included angle between the bearing board 307 and the sloping paper feeding tray 304 is expanded and becomes ω1 so that the paper sheet 302 c is pushed upward with the front end of the paper sheet 302 c reaching the feeding end 312. Consequently, the automatic paper feeding roller set 306 may carry the paper sheet 302 c to move towards the feeding end 312. The step of automatic document feeding of the automatic document feeder 300 is completed here.

PREFERRED EMBODIMENT TWO

Referring to FIG. 4A, a cross-sectional view of the structure of an automatic document feeder 400 according to preferred embodiment two of the invention is shown. In FIG. 4A, the automatic document feeder 400 includes a sloping paper feeding tray 404, an automatic paper feeding roller set 406, a paper feeding pad 410, a bearing board 407 and an elastic structure, wherein the elastic structure may be a spring or a Mylar 408. The automatic document feeder 400 is for feeding a to-be-fed paper sheet 402 into an office machine (not shown in FIG. 4A) such as a printer, a copier, a scanner or a facsimile machine. The sloping paper feeding tray 404 is for accommodating the to-be-fed paper sheet 402. Both the automatic paper feeding roller set 406 and the paper feeding pad 410 are disposed at the bottom of the sloping paper feeding tray 404. A feeding end 412 is formed by a flange of the automatic paper feeding roller set 406 and the paper feeding pad 410, wherein the flange of the automatic paper feeding roller set 406 and the paper feeding pad 410 are adjacent to and in contact with each other. Moreover, the automatic paper feeding roller set 406 rotates clockwise around a roller shaft 416 and carries the to-be-fed paper sheet 402 to move forward.

The bearing board 407, with its one end being pivotally connected to the sloping paper feeding tray 404, is able to turn around on the sloping paper feeding tray, while the other end of the bearing board 407 supports the to-be-fed paper sheet 402. The Mylar 408, which is disposed between the sloping paper feeding tray 404 and the bearing board 407, may elastically spring the other end of the bearing board 407 so that an included angle ψ1 is created between the bearing board 407 and the sloping paper feeding tray 404.

The Mylar 408 includes a junction portion 408 a, a supporting portion 408 b and a bending portion 408 c, wherein the supporting portion 408 b connects the junction portion 408 a and the bending portion 408 c with the junction portion 408 a being flatly adhered onto the sloping paper feeding tray 404. The supporting portion 408 b, which creates another included angle with the sloping paper feeding tray 404, elastically supports the bearing board 407. The bending portion 408 c forms an included angle with the supporting portion 408 c, wherein the included angle may be a fixed included angle or an adjustable included angle. Furthermore, one terminal end of the bending portion 408 c is embedded into a slot 413 of the sloping paper feeding tray 404. As more and more paper sheets are placed on the bearing board 407, the included angle between the bearing board 407 and the sloping paper feeding tray 404 becomes smaller while the bending portion 408 c slide inwardly along the slot 413. The bearing board 407 uses the elasticity of the Mylar 408 to support the to-be-fed paper sheet 402 with the front end of to-be-fed paper 402 reaching the feeding end 412, so that the automatic paper feeding roller set 406 may carry the to-be-fed paper sheet 402 to move towards the feeding end 412.

Referring to FIG. 4B, a cross-sectional view of the structure of the automatic document feeder 400 of FIG. 4A with a paper stack being loaded therein is shown. In FIG. 4B, the paper stack 414 including a paper sheet 402 a, a paper sheet 402 b, a paper stack 414 a and a paper sheet 402 c arranged in a top-down order is loaded in a sloping paper feeding tray 404. Since the downward gravity of the paper stack 414 is larger than the gravity of the single to-be-fed paper sheet 402 in FIG. 4A and the upward elasticity of the Mylar 408 as well, the included angle between the bearing board 407 and the sloping paper feeding tray 404 is smaller than ψ1 while the bending portion 408 c slides inwardly along the slot 413. Consequently, the bottom of the supporting portion 408 b of the Mylar 408 may even come into contact with the sloping paper feeding tray 404, while the bending portion 408 c may be completely embedded into the slot 413 with the bottom of the bearing board 407 touching one end of the junction portion 408 a. Meanwhile, the front end of the paper stack 414 reaches the paper feeding pad 410 and the front end of the paper sheet 402 a just reaches the feeding end 412.

After the automatic paper feeding roller set 406 has sequentially carried the paper sheet 402 a, the paper sheet 402 b and the paper stack 414 a to move forward and to be fed into the office machine, only the paper sheet 402 c will be left at the sloping paper feeding tray 404 like the case in FIG. 4A. Owing to the upward elasticity of the Mylar 408, the included angle between the bearing board 407 and the sloping paper feeding tray 404 will be expanded and become ψ1, while the bending portion 407 c will slide outwardly along the slot 413 to push the paper sheet 402 c upward with the front end of the paper sheet 402 c reaching the feeding end 412. Consequently, the automatic paper feeding roller set 406 may carry the paper sheet 402 c to move towards the feeding end 412. The step of automatic document feeding of the automatic document feeder 400 is completed here.

However, anyone who is familiar with the invention will realize that the technique of the invention is not limited thereto. For example, owing to the sloping design of the structure of the sloping paper feeding tray, after a paper sheet is loaded into the sloping paper feeding tray, the paper sheet will be disposed on the bearing board with a slope so that the front end of the paper sheet will automatically slide to the feeding end. Therefore, the upward elasticity of the elastic structure of the invention does not need to be as large as that in FIG. 1A. A smaller upward elasticity will do as long as the elasticity suffices to enable the front end of the paper sheet to reach the feeding end after the paper sheet slides into the sloping paper feeding tray due to gravity.

With the design of disposing a bearing board on a sloping paper feeding tray, the automatic document feeder disclosed above not only protects the Mylar disposed under the bearing board from being damaged but also reduces the damage rate of the Mylar, so that the lifespan of the Mylar may be lengthened and a stable operation of the automatic document feeder may be achieved.

While the invention has been described by way of example and in terms of a preferred embodiment, it is to be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures. 

1. An automatic document feeder comprising: a sloping paper feeding tray for accommodating at least one to-be-fed paper sheet; a bearing board, whose one end being pivotally connected to the sloping paper feeding tray, is able to turn around on the sloping paper feeding tray, wherein the other end of the bearing board is used for supporting the to-be-fed paper sheet; and an elastic structure, which is disposed between the sloping paper feeding tray and the bearing board and elastically supports the other end of the bearing board to create a first included angle between the supporting plate and the sloping paper feeding tray.
 2. The automatic document feeder according to claim 1, wherein the elastic structure is a spring.
 3. The automatic document feeder according to claim 1, wherein the elastic structure is a Mylar.
 4. The automatic document feeder according to claim 3, wherein the Mylar comprises: a junction portion, which is flatly adhered onto the sloping paper feeding tray; and a supporting portion, which creates a second included angle with the sloping paper feeding tray and elastically supports the bearing board.
 5. The automatic document feeder according to claim 4, wherein the Mylar comprises: a bending portion, which is disposed at the terminal end of the supporting portion and bends toward the sloping paper feeding tray.
 6. The automatic document feeder according to claim 5, wherein the automatic document feeder further comprises: a slot, which is disposed on the sloping paper feeding tray and is opposite to the bending portion embedded into the slot.
 7. The automatic document feeder according to claim 6, wherein when the supporting portion is pressed downward, the bending portion will slide towards the slot.
 8. The automatic document feeder according to claim 1, wherein the automatic document feeder further comprises: an automatic paper feeding roller set disposed at the bottom of the sloping paper feeding tray for feeding the at least one to-be-fed paper sheet.
 9. The automatic document feeder according to claim 8, wherein the automatic document feeder further comprises: a paper feeding pad, which is disposed at the bottom of the sloping paper feeding tray and comes into contact with the flange of the automatic paper feeding roller set for feeding the at least one to-be-fed paper sheet.
 10. An automatic document feeder comprising: a sloping paper feeding tray for accommodating at least one to-be-fed paper sheet; a bearing board, which, with its one end being pivotally connected to the sloping paper feeding tray, is able to turn around on the sloping paper feeding tray, while the other end of the bearing board supports the to-be-fed paper sheet; and a Mylar, which is disposed between the sloping paper feeding tray and the bearing board and elastically supports the other end of the bearing board to create a first included angle between the supporting plate and the sloping paper feeding tray, wherein the Mylar comprises: a junction portion, which is flatly adhered onto the sloping paper feeding tray; and a supporting portion, which creates a second included angle with the sloping paper feeding tray and elastically supports the bearing board
 11. The automatic document feeder according to claim 10, wherein the Mylar further comprises: a bending portion, which is disposed at the terminal end of the supporting portion and bends toward a lateral side of the sloping paper feeding tray.
 12. The automatic document feeder according to claim 11, wherein the automatic document feeder further comprises: a slot, which is disposed on the sloping paper feeding tray and is opposite to the bending portion embedded into the slot.
 13. The automatic document feeder according to claim 12, wherein when the supporting portion is pressed downward, the bending portion will slide towards the slot.
 14. The automatic document feeder according to claim 10, wherein the automatic document feeder further comprises: an automatic paper feeding roller set disposed at the bottom of the sloping paper feeding tray for feeding the to-be-fed paper sheet.
 15. The automatic document feeder according to claim 14, wherein the automatic document feeder further comprises: a paper feeding pad, which is disposed at the bottom of the sloping paper feeding tray and comes into contact with the flange of the automatic paper feeding roller set for feeding the to-be-fed paper sheet. 